CN113756469A - Combined connecting module of assembly type building and combined plate body structure thereof - Google Patents

Abstract

The invention discloses a combined connection module of an assembly type building and a combined plate body structure thereof, which relate to the technical field of building construction and comprise a connection assembly, wherein the connection assembly comprises a connection piece and an insertion hole, the connection piece comprises an insertion cylinder, and a first piston plate and a second piston plate are arranged in the insertion cylinder in a sliding manner; be the stock solution chamber between first piston board and the second piston board, contain the building and use gluey in the stock solution chamber. When the combined connecting module is used, the vertical connection can be fixed through the combined connecting module, and the inserting cylinder and the inserting hole are fixed through glue.

Description

Combined connecting module of assembly type building and combined plate body structure thereof

Technical Field

The invention relates to the technical field of building construction, in particular to a combined connecting module of an assembly type building and a combined plate body structure thereof.

Background

The prefabricated building is a building which is formed by transferring a large amount of field operation work in the traditional construction mode to a factory, processing and manufacturing building components and accessories (such as floor slabs, wall plates, stairs, balconies and the like) in the factory, transporting the building components and accessories to a building construction site, and assembling and installing the building components and the accessories on the site in a reliable connection mode, wherein the prefabricated building mainly comprises a prefabricated concrete structure, a steel structure, a modern wood structure building and the like, is a representative of a modern industrial production mode because of adopting standardized design, factory production, assembly construction, information management and intelligent application, and generally comprises a prefabricated framework and plates, and the bearing structure of the prefabricated building has two modes: one is a frame structure system which is composed of a bearing frame consisting of columns and beams and then is used for placing a floor slab and non-bearing inner and outer wallboards; the other type is a plate column structure system with load bearing formed by columns and floor slabs, the inner wall plate and the outer wall plate are non-load bearing, the load bearing framework is generally a heavy reinforced concrete structure, the framework and the plate combination are made of steel and wood, the framework and the plate combination are commonly used in light prefabricated buildings, the framework and the plate building are reasonable in structure, the dead weight of the building can be reduced, the interior can be flexibly separated, and the plate column structure system is suitable for multi-storey and high-rise buildings.

The existing assembly type building is generally fixed in the vertical direction by using connecting nails to match with a baffle, the mode has low safety, effective fixation is not formed between two vertically adjacent wallboards, the safety is low, and a large amount of time and energy are consumed for installation; the mode that fixed wallboard both ends were pour to cement is generally used when carrying out the connection of horizontal direction to present prefabricated construction, and this kind of mode shaping is slow, greatly increased the installation time of wallboard, and stable inadequately when the installation of wallboard.

Disclosure of Invention

The invention aims to provide a combined connecting module of an assembly type building and a combined plate structure thereof, so as to solve the problems of low safety and large time and energy consumption in installation of the existing assembly type building in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme:

assembled building's built-up connection module, including the wallboard, the wallboard is the rectangle, and the upper end and the lower extreme of wallboard are equipped with coupling assembling A respectively, and the left and right sides of wallboard is equipped with coupling assembling B respectively, coupling assembling A includes connecting piece and jack, coupling assembling B includes first connecting block.

The connecting piece comprises an inserting cylinder, and a first piston plate and a second piston plate are arranged in the inserting cylinder in a sliding mode;

a liquid storage cavity is formed between the first piston plate and the second piston plate, and building glue is contained in the liquid storage cavity;

one end of the first piston plate, which is far away from the second piston plate, is provided with a mounting groove, the mounting groove is a conical groove, and the first piston plate is provided with a third through hole;

a silicon membrane is arranged in the mounting groove;

a mounting plate is fixedly arranged in the jack, a cavity is arranged in the mounting plate, and a group of second through holes are formed in the mounting plate;

the mounting panel is the round platform form, install on the mounting panel and insert the awl, insert the awl and coaxial setting of mounting panel, insert and seted up a set of first through-hole on the awl.

Preferably, a baffle is fixedly embedded in one side, close to the second piston plate, of the first piston plate, a spring is installed between the baffle and the second piston plate, one end of the spring is fixed on the second piston plate, and the other end of the spring is fixed on the baffle.

Preferably, the third through-hole passes the baffle and communicates with the stock solution chamber, be equipped with the chamfer groove on the first piston plate, a set of locking groove has been seted up on the chamfer groove, it is equipped with the internal thread to insert a section of thick bamboo inboard, the third through-hole with insert a coaxial setting of section of thick bamboo, third through-hole one end and mounting groove intercommunication.

Preferably, first piston plate and second piston plate all with insert a section of thick bamboo sliding connection, all cup joint on first piston plate and the second piston plate and install two sealing washers.

Preferably, the second through holes are arranged in a circle array with the axis of the jack as the circle center, the first through holes are arranged in a circle array with the axis of the jack as the circle center, one end of each first through hole is communicated with the cavity, the other end of each first through hole extends out of the mounting plate to be communicated with the outside, one end of each second through hole is communicated with the cavity, and the other end of each second through hole extends out of the insertion cone to be communicated with the outside.

Preferably, each first through hole is perpendicular to any one second through hole, the insertion cone is arranged corresponding to the silicone membrane, and the minimum diameter of the mounting plate is larger than the maximum diameter of the insertion cone.

Preferably, be equipped with the mounting hole on the first linkage block, the installation cavity has been seted up below the mounting hole, be equipped with a set of solid fixed ring in the installation cavity, gu fixed ring sets up along the axis direction array of mounting hole, be equipped with the screw thread semi-tube of two relative settings in the installation cavity, the external diameter of screw thread semi-tube is greater than the diameter of mounting hole, the internal diameter of screw thread semi-tube is less than the diameter of mounting hole, cup joint and be fixed with the buffering ring on the screw thread semi-tube, the buffering ring sets up between solid fixed ring and screw thread semi-tube, the outside and the installation cavity of buffering ring, solid fixed ring are fixed connection, the inboard and two screw thread semi-tubes of buffering ring are fixed connection.

Preferably, an air cavity ring is arranged in the wallboard, an inflation valve is installed on one side of the wallboard and communicated with the air cavity ring, a channel is arranged in the wallboard, and one end of each channel is communicated with the air cavity ring.

The invention also provides a combined plate structure of the fabricated building, which comprises a plurality of combined connecting modules of the fabricated building, wherein the combined connecting modules are connected with the connecting assembly B through the connecting assembly A; the upper wallboard and the lower wallboard are connected with each other in a matched mode through the connecting piece and the jack, and the left wallboard and the right wallboard are connected through the first connecting block.

Compared with the prior art, the invention has the beneficial effects that:

according to the combined connecting module provided by the invention, adjacent wallboards can be connected through the matching of the connecting components to form a combined wallboard, the installation is convenient and rapid, and the structure is stable and reliable.

Drawings

Other features, objects and advantages of the invention will become more apparent upon reading of the detailed description of non-limiting embodiments with reference to the following drawings:

fig. 1 is a schematic diagram of the basic structure of the present invention.

Fig. 2 is a cross-sectional view of the present invention.

Fig. 3 is a schematic view of the basic structure of the connector of the present invention.

Fig. 4 is a schematic view of the installation position of the installation plate and the insertion cone of the present invention.

Fig. 5 is a schematic view of the installation of the connector and the jack of the present invention.

Fig. 6 is a schematic structural view of the connector and the jack of the present invention after installation.

Fig. 7 is a cross-sectional view of the connection assembly of the present invention.

Fig. 8 is another cross-sectional view of the connection assembly of the present invention.

Fig. 9 is a schematic view of the installation of the wall panel of the present invention.

In the figure: 1. a wallboard; 2. a connecting assembly; 201. a first connection block; 202. mounting holes; 203. a threaded half pipe; 204. a buffer ring; 205. a fixing ring; 206. a mounting cavity; 3. a connecting assembly; 301. a connecting member; 302. a jack; 303. inserting a cylinder; 304. a first piston plate; 305. a locking groove; 306. mounting grooves; 307. a silicone membrane; 308. an internal thread; 309. mounting a plate; 310. a second through hole; 311. inserting a cone; 312. a first through hole; 313. a cavity; 314. a second piston plate; 315. a baffle plate; 316. a spring; 317. a liquid storage cavity; 318. a third through hole; 319. chamfering grooves; 4. a reinforcing plate; 5. an inflation valve; 6. an air cavity ring; 7. a channel.

The components are standard parts in general or known to those skilled in the art, and their structure and principle are known to those skilled in the art through technical manuals or through routine experimentation.

Detailed Description

Referring to fig. 1-9, the modular connection module of the prefabricated building includes a wall panel 1, the wall panel 1 is rectangular, the upper end and the lower end of the wall panel are respectively provided with a connection assembly A3, the left side and the right side of the wall panel 1 are respectively provided with a connection assembly B2, the connection assembly A3 includes a connection member 301 and a jack 302 which are arranged at intervals, and the connection assembly B2 includes a first connection block 201; the upper wall plate 1 and the lower wall plate 1 are connected with the jack 302 through a connecting piece 301 in a matching mode, and the left wall plate 1 and the right wall plate 1 are connected through a first connecting block 201.

The connecting assembly 3 comprises a connecting piece 301 and a jack 302, the connecting piece 301 comprises an insert barrel 303, and a first piston plate 304 and a second piston plate 314 are slidably mounted in the insert barrel 303;

a liquid storage cavity 317 is formed between the first piston plate 304 and the second piston plate 314, the liquid storage cavity 317 contains building glue, the building glue is building structural glue, and the building structural glue can bear larger load and is aging-resistant, fatigue-resistant and corrosion-resistant;

one end of the first piston plate 304, which is far away from the second piston plate 314, is provided with a mounting groove 306, the mounting groove 306 is a tapered groove, and the first piston plate 304 is provided with a third through hole 318;

a silicon membrane 307 is arranged in the mounting groove 306;

the mounting plate 309 is fixedly mounted in the jack 302, a cavity 313 is formed in the mounting plate 309, a group of second through holes 310 are formed in the mounting plate 309, the surface roughness of the mounting plate 309 is high, and the mounting plate can be better combined with building glue and fixed;

the mounting plate 309 is in a circular truncated cone shape, an insertion cone 311 is mounted on the mounting plate 309, the insertion cone 311 and the mounting plate 309 are coaxially arranged, a group of first through holes 312 are formed in the insertion cone 311, and after the insertion cone 311 is inserted into the mounting groove 306, the mounting groove 306 is communicated with the insertion hole 302 through the first through holes 312, the cavity 313 and the second through holes 310;

when the combined installation is carried out, firstly, the air pump is connected to the inflation valve 5, then, the corresponding connecting piece 301 is inserted into the corresponding insertion hole 302, when the insertion cone 311 in the insertion hole 302 pierces the silica gel film 307 in the connecting piece 301, the corresponding air pump is opened, so that the second piston plate 314 is pressed by air pressure to move towards the direction of the first piston plate 304, the first piston plate 304 and the second piston plate 314 are close to each other, building glue in the liquid storage cavity 317 is promoted to flow into the space between the insertion barrel 303 and the insertion hole 302 through the third through hole 318, the installation groove 306, the first through hole 312, the cavity 313 and the second through hole 310, the building glue fills the chamfer groove 319 after a period of time, meanwhile, the building glue is contacted with air through a gap between the insertion barrel 303 and the insertion hole 302 to be solidified, the fixation between the corresponding connecting piece 301 and the insertion hole 302 can be completed, the combined connection module provided by the invention is used for installing two adjacent wall boards in the vertical direction, time-saving and labor-saving, and is spliced compared with the existing method that manual work is used for fixing the wall boards in the combined connection mode The fixed mode is more convenient, rapid and safe.

The number of the connecting pieces 301 on the same side is equal to that of the jacks 302, the number of the connecting pieces 301 in the two groups of corresponding connecting components 3 is equal, and each connecting piece 301 can be matched with the corresponding jack 302.

First piston plate 304 is inlayed in one side that is close to second piston plate 314 and is fixed with baffle 315, install spring 316 between baffle 315 and the second piston plate 314, the one end of spring 316 is fixed on second piston plate 314, the other end of spring 316 is fixed on baffle 315, spring 316 is used for buffering between first piston plate 304 and the second piston plate 314, the building that the speed is too fast to lead to when preventing second piston plate 314 to remove towards first piston plate 304 is spout fast, make building glue can be more slow-speed pour into and insert between section of thick bamboo 303 and the jack 302, the reliability has been increased.

Third through-hole 318 passes baffle 315 and communicates with stock solution chamber 317, be equipped with chamfer groove 319 on the first piston board 304, a set of locking groove 305 has been seted up on chamfer groove 319, it is equipped with internal thread 308 to insert a section of thick bamboo 303 inboard, third through-hole 318 with insert the coaxial setting of a section of thick bamboo 303, third through-hole 318 one end and mounting groove 306 intercommunication, chamfer groove 319 can hold building and use gluey, and make building glue and the better combination of locking groove 305, play better fixed effect, pellosil 307 plays the effect of gluing, prevent building glue and air contact and then take place to solidify the phenomenon.

The first piston plate 304 and the second piston plate 314 are both connected with the insert cylinder 303 in a sliding manner, two sealing rings are sleeved on the first piston plate 304 and the second piston plate 314, and the two sealing rings are respectively installed as an O-shaped sealing ring and a Y-shaped sealing ring.

The second through holes 310 are arranged in a circle array with the axis of the jack 302 as the circle center, the first through holes 312 are arranged in a circle array with the axis of the jack 302 as the circle center, one end of each first through hole 312 is communicated with the cavity 313, the other end of each first through hole 312 extends out of the mounting plate 309 to be communicated with the outside, one end of each second through hole 310 is communicated with the cavity 313, and the other end of each second through hole 310 extends out of the insertion cone 311 to be communicated with the outside.

Each first through hole 312 is perpendicular to any one second through hole 310, the insertion cone 311 is arranged corresponding to the silicone membrane 307, and the minimum diameter of the mounting plate 309 is larger than the maximum diameter of the insertion cone 311.

Jack 302 is seted up on wallboard 1, and connecting piece 301 fixed mounting is on wallboard 1, and insert a section of thick bamboo 303 fixed mounting is on wallboard 1.

The wall plate 1 is also provided with two groups of connecting components 2, the two groups of connecting components 2 are respectively positioned on two opposite sides of the wall plate 1, reinforcing plates 4 are respectively arranged on two opposite sides of the wall plate 1, the reinforcing plates 4 are arranged on the wall plate 1 and can improve the overall resistance of the forehead wall plate 1, the reinforcing plates 4 are in a frame shape, air cavity rings 6 are arranged in the wall plate 1, as the reinforcing plates 4 and the air cavity rings 6 are in an annular shape, a window can be selected to be arranged on the wall plate 1, the window cannot influence the overall working flow of the invention, the window is arranged at the center of the wall plate 1, the air cavity rings 6 are communicated with each inserting cylinder 303 through a channel 7, one side of the wall plate 1 is provided with an inflation valve 5, the inflation valve 5 is communicated with the air cavity rings 6, the inflation valve 5 is a one-way valve, and the communicated square of the inflation valve 5 is in a direction from the outside to the air cavity rings 6;

every coupling assembling 2 all includes first connecting block 201, and first connecting block 201 fixed mounting is on wallboard 1, and first connecting block 201 is the square, all is equipped with mounting hole 202 on every first connecting block 201.

Have seted up installation cavity 206 in the first connecting block 201, be equipped with a set of solid fixed ring 205 in the installation cavity 206, gu fixed ring 205 sets up along the axis direction array of mounting hole 202, be equipped with the half pipe 203 of screw thread that two relative settings in the installation cavity 206, the external diameter of half pipe 203 of screw thread is greater than the diameter of mounting hole 202, the internal diameter of half pipe 203 of screw thread is less than the diameter of mounting hole 202, cup joint and be fixed with buffer ring 204 on the half pipe 203 of screw thread, buffer ring 204 sets up between solid fixed ring 205 and half pipe 203 of screw thread, the outside and the installation cavity 206 of buffer ring 204, gu fixed ring 205 is fixed connection, the inboard and two half pipes 203 of screw thread of buffer ring 204 are fixed connection.

A plurality of the combined connecting modules are connected through the connecting assembly A and the connecting assembly B to form a combined plate body structure of the fabricated building.

The using method of the invention comprises the steps of firstly drilling a foundation, then pouring support columns on corners of the foundation, then pouring wall boards 1 on the foundation by using concrete, and sequentially carrying out the installation work of the wall boards 1, firstly carrying out the installation and connection work of the single-direction single-level wall boards 1 to complete the transverse installation operation of the same level and the same side, carrying out the transverse installation operation of the wall boards 1 by using the connecting components 2, carrying out the staggered occlusion of two groups of first connecting blocks 201 between two adjacent wall boards 1, because the transverse section of the first connecting block 201 is a cube, the connection between the two adjacent wall boards 1 can be tighter, installing pre-fixing bolts in the installation holes 202 for pre-fixing after the two groups of corresponding first connecting blocks 201 are occluded with each other, after a plurality of wall boards 1 form a face wall, hoisting the face cavity by using a crane and installing the wall board 1 at the bottom, at this time, the connecting assembly 3 is used to complete the fixing operation of the upper and lower wall boards 1, the connecting assembly 3 arranged in an alignment and staggered manner is slowly descended to enable the corresponding inserting cylinder 303 to be inserted into the inserting hole 302, at this time, the inserting cone 311 in the inserting hole 302 pierces the silicon film 307 and stops in the installing groove 306, after the matching of the upper and lower corresponding two wall boards 1 is completed, the air pump is connected to the inflation valve 5, the air pump is opened to inflate towards the air cavity ring 6 to enable the internal pressure to rise, the air pressure controls the second piston plate 314 and the first piston plate 304 to extend towards the inserting hole 302 to move, after the first piston plate 304 is contacted with the installing plate 309 and can not move continuously, the second piston plate 314 continues to move, the building glue in the liquid storage cavity between the first piston plate 304 and the second piston plate 314 flows into the inserting cylinder 303 and the inserting hole 302 through the third through hole 317, the installing groove 306, the first through hole 312, the cavity 313, the second through hole 310, then the gap between the integrated inserting barrel 303 and the inserting hole 302 is filled, the fixed operation between two adjacent wallboards 1 in the vertical direction can be finished by contacting with the internal thread 308 and the locking groove 305 after one time, the air pump is removed, the pre-fixing bolt is drawn out, the building glue is dried and solidified after one time, and the fixed operation between the two adjacent wallboards 1 in the vertical direction can be finished without other steps, the connecting assembly 3 is used for mounting the two adjacent wallboards 1 in the vertical direction, time and labor are saved, compared with the current mode of splicing and fixing manually, the method is more convenient, rapid and safe, and is recommended to popularize and use, after all the wallboards 1 are mounted, the corresponding screw rods are used for penetrating through the corresponding mounting holes 202 to prop open the two thread half pipes 203 in each first connecting block 201, so that the better fixing effect of the screw rods on the first connecting blocks 201 is obtained, the condition that the wallboards 1 are prevented from shaking effectively, and the stability and the safety of the wallboards 1 during mounting are improved, the installation time is reduced.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and the technical solutions and the inventive concepts thereof according to the present invention are equivalent to or changed within the technical scope of the present invention.

Claims (10)

1. Assembled building's built-up connection module, its characterized in that, including wallboard (1), wallboard (1) is the rectangle, and the upper end and the lower extreme of wallboard (1) are equipped with coupling assembling A (3) respectively, and the left and right sides of wallboard (1) is equipped with coupling assembling B (2) respectively, coupling assembling A (3) are including connecting piece (301) and jack (302), coupling assembling B (2) are including first connecting block (201).

2. The modular connection module of prefabricated buildings according to claim 1, characterized in that the connector (301) comprises an insert cylinder (303), a first piston plate (304) and a second piston plate (314) are slidably mounted in the insert cylinder (303);

a liquid storage cavity (317) is formed between the first piston plate (304) and the second piston plate (314), and building glue is contained in the liquid storage cavity (317);

a mounting groove (306) is formed in one end, away from the second piston plate (314), of the first piston plate (304), the mounting groove (306) is a conical groove, and a third through hole (318) is formed in the first piston plate (304);

a silicon membrane (307) is arranged in the mounting groove (306);

a mounting plate (309) is fixedly mounted in the jack (302), a cavity (313) is formed in the mounting plate (309), and a group of second through holes (310) are formed in the mounting plate (309);

the mounting panel (309) is round platform form, install on mounting panel (309) and insert awl (311), insert awl (311) and mounting panel (309) coaxial setting, insert and seted up a set of first through-hole (312) on awl (311).

3. The modular connection module of the prefabricated building as claimed in claim 2, wherein a baffle plate (315) is fixedly embedded on one side of the first piston plate (304) close to the second piston plate (314), a spring (316) is installed between the baffle plate (315) and the second piston plate (314), one end of the spring (316) is fixed on the second piston plate (314), and the other end of the spring (316) is fixed on the baffle plate (315).

4. The modular connection module of an assembly type building according to claim 3, wherein the third through hole (318) passes through the baffle (315) and is communicated with the liquid storage cavity (317), the first piston plate (304) is provided with a chamfer groove (319), the chamfer groove (319) is provided with a group of locking grooves (305), the inner side of the insertion cylinder (303) is provided with an internal thread (308), the third through hole (318) is coaxially arranged with the insertion cylinder (303), and one end of the third through hole (318) is communicated with the mounting groove (306).

5. The modular connection module of the prefabricated building as claimed in claim 4, wherein the first piston plate (304) and the second piston plate (314) are slidably connected with the insert cylinder (303), and two sealing rings are sleeved on the first piston plate (304) and the second piston plate (314).

6. The modular connection module of the prefabricated building as claimed in claim 5, wherein the second through holes (310) are arranged in a circular array with the axis of the jack (302) as the center of a circle, the first through holes (312) are arranged in a circular array with the axis of the jack (302) as the center of a circle, one end of each first through hole (312) is communicated with the cavity (313), the other end of each first through hole (312) extends out of the mounting plate (309) to be communicated with the outside, one end of each second through hole (310) is communicated with the cavity (313), and the other end of each second through hole (310) extends out of the plug cone (311) to be communicated with the outside.

7. The modular connection module of prefabricated buildings according to claim 6, characterized in that each of the first through holes (312) is vertically arranged with any one of the second through holes (310), the insertion cone (311) is arranged corresponding to the silicone film (307), and the minimum diameter of the mounting plate (309) is larger than the maximum diameter of the insertion cone (311).

8. The assembly connection module of an assembly type building according to any one of claims 1 to 7, wherein a mounting hole (202) is formed in the first connection block (201), a mounting cavity (206) is formed below the mounting hole (202), a set of fixing rings (205) is arranged in the mounting cavity (206), the fixing rings (205) are arranged in an array along the axial direction of the mounting hole (202), two oppositely arranged threaded half pipes (203) are arranged in the mounting cavity (206), the outer diameter of each threaded half pipe (203) is larger than the diameter of the mounting hole (202), the inner diameter of each threaded half pipe (203) is smaller than the diameter of the mounting hole (202), a buffer ring (204) is sleeved and fixed on each threaded half pipe (203), the buffer ring (204) is arranged between each fixing ring (205) and each threaded half pipe (203), and the outer side of the buffer ring (204) is connected with the mounting cavity (206), The fixing rings (205) are fixedly connected, and the inner side of the buffer ring (204) is fixedly connected with the two thread half pipes (203).

9. The modular connection module of prefabricated buildings according to claim 8, characterized in that an air cavity ring (6) is arranged in the wall plate (1), an inflation valve (5) is arranged at one side of the wall plate (1), the inflation valve (5) is communicated with the air cavity ring (6), a channel (7) is arranged in the wall plate (1), and one end of each channel (7) is communicated with the air cavity ring (6).

10. The combined plate structure of the prefabricated building is characterized by comprising a plurality of combined connecting modules of the prefabricated building, wherein the combined connecting modules are connected through a connecting assembly A and a connecting assembly B; the upper wall plate and the lower wall plate (1) are connected with the jack (302) through a connecting piece (301) in a matched mode, and the left wall plate and the right wall plate (1) are connected through a first connecting block (201).

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